Token Identity Devices

ABSTRACT

Disclosed embodiments include methods, systems, and computer-readable media configured to provide wearable devices storing tokens associated with digital versions of physical documents/cards. The wearable devices may further transfer tokens securely to interested parties without Bluetooth® or other network connectivity beyond NFC radio. In some embodiments, a token vault operator system may receive a request to establish a token vault account for a user, authenticate an identity of the user based at least on the received request, and generating a token vault ID associated with the user. The token vault operator system may further configure access to data sets generated for and associated with the token vault ID, generate tokens associated with the token vault ID, each token corresponding to one of the one or more data sets, and provide the generated plurality of tokens associated with the token vault ID to at least one user device.

PRIORITY

This application claims priority to U.S. Provisional Application No.62/152,447 filed Apr. 24, 2015, the disclosure of which is herebyincorporated by reference in its entirety.

BACKGROUND

Currently, individuals typically carry physical documents or cards toidentify themselves and/or their accounts, profiles, etc. For example,people seeking medical care or wishing to make an insurance claim musttypically present a physical government issued identification (ID)(driver's license, social security card, etc.) and/or an insurance cardin order to obtain access to their medical records and initiate theprocess. Similarly, those wishing to make a financial transfer musttypically present identification along with a financial card.

Physical documents and cards, however, may be forged and are thereforesusceptible to fraud from fairly unsophisticated criminals. Physicaldocuments and cards also require individuals to carry wallets and/orpurses to store the physical documents and cards. Moreover, the abilityto deactivate and/or reissue physical documents and cards is oftenlimited, resulting in a time consuming process that allows criminals tocontinue the fraudulent use of compromised physical documents and cards.

Thus, certain aspects of the disclosed embodiments provide methods andsystems for digitizing a wallet using, in some embodiments, wearabledevices storing tokens associated with digital versions of physicaldocuments/cards and that are capable of securely transferring thosetokens to interested parties without Bluetooth® or other networkconnectivity beyond near field communication (NFC) radio. Other aspectsare also provided as disclosed below.

SUMMARY

Disclosed embodiments include methods, systems, and computer-readablemedia configured to, for example, provide wearable devices storingtokens associated with digital versions of physical documents/cards thatare capable of securely transferring those tokens to interested partieswithout Bluetooth® or other network connectivity beyond NFC radio.

In one aspect, the disclosed embodiments include a system comprising adatabase configured to store a plurality of tokens, each token of theplurality of tokens associated with one or more token vault IDs. Thesystem may also comprise at least one network communication device, astorage device comprising instructions, and at least one processorconfigured to execute the instructions to perform a method. The methodmay, for example, comprise receiving a request to establish a tokenvault account for a user, the request comprising at least one ofcustomer identification information, financial account information,medical history information, and an access credential to an externaldata set. The method may also include authenticating an identity of theuser based at least on the received request and generating a token vaultID associated with the user. The method may further comprise configuringaccess of the system to one or more data sets generated for andassociated with the token vault ID, the one or more data sets beingstored in the database or at least one external storage database. Themethod may also include generating a plurality of tokens associated withthe token vault ID, each token of the plurality of tokens associatedwith the token vault ID corresponding to one of the data sets. Themethod may also include providing the generated plurality of tokensassociated with the token vault ID to at least one user device.

Aspects of the disclosed embodiments may include tangiblecomputer-readable media that store software instructions that, whenexecuted by one or more processors, are configured to and capable ofperforming and executing one or more of the methods, operations, or thelike consistent with the disclosed embodiments. Also, aspects of thedisclosed embodiments may be performed by one or more processors thatare configured as special-purpose processor(s) based on softwareinstructions that are programmed with logic and instructions thatperform, when executed, one or more operations consistent with thedisclosed embodiments.

It is to be understood that both the foregoing general description andthe following detailed description are exemplary and explanatory onlyand are not restrictive of the disclosed embodiments, as claimed.

BRIEF DESCRIPTION OF THE DRAWINGS

The accompanying drawings, which are incorporated in and constitute apart of this specification, illustrate disclosed embodiments and,together with the description, serve to explain the disclosedembodiments. In the drawings:

FIG. 1 is a block diagram of an exemplary system, consistent withdisclosed embodiments.

FIG. 2 is a diagram of an exemplary wearable device configuration,consistent with disclosed embodiments.

FIG. 3 is a diagram of exemplary data structure for storing data inmemory of a wearable device, consistent with disclosed embodiments.

FIG. 4 is a diagram of exemplary data structure for storing data intoken vault, consistent with disclosed embodiments.

FIG. 5 is another exemplary system, consistent with disclosedembodiments.

FIG. 6 is a flow chart of an exemplary identity token configurationprocess, consistent with disclosed embodiments.

FIG. 7 is a flow chart of an exemplary token utilization process,consistent with disclosed embodiments.

FIG. 8 is a flow chart of an exemplary reprovisioning process,consistent with disclosed embodiments.

FIG. 9 is a flow chart of an exemplary token vault requestor uploadprocess, consistent with disclosed embodiments.

DETAILED DESCRIPTION

Reference will now be made in detail to the disclosed embodiments,examples of which are illustrated in the accompanying drawings. Whereverconvenient, the same reference numbers will be used throughout thedrawings to refer to the same or like parts.

FIG. 1 is a block diagram of an exemplary system 100 for performing oneor more operations, consistent with the disclosed embodiments. In oneembodiment, system 100 may include one or more wearable devices 110, oneor more user devices 120, one or more third-party servers 140, one ormore token vault operator servers 150, one or more token vaults 155, oneor more requestor devices 160, and/or network 170. Consistent withdisclosed embodiments, user 115 may be associated with user device 120and/or wearable device 110. The components and arrangement of thecomponents included in system 100 may vary. Thus, system 100 may includeother components that perform or assist in the performance of one ormore processes consistent with the disclosed embodiments.

Components of system 100 may be computing systems configured to providemethods and systems that enable the use of wearable devices storingtokens (e.g., a secure software mechanism that may be used to authorizeor identify) associated with digital versions of physicaldocuments/cards and capable of securely transferring those tokens tointerested parties without Bluetooth® or other network connectivitybeyond NFC radio, consistent with disclosed embodiments. As furtherdescribed herein, components of system 100 may include one or morecomputing devices (e.g., computer(s), server(s), etc.), memory storingdata and/or software instructions (e.g., database(s), memory device(s),etc.), and other known computing components. In some embodiments, theone or more computing devices may be configured to execute softwareinstructions stored on one or more memory devices to perform one or moreoperations consistent with the disclosed embodiments. Components ofsystem 100 may be configured to communicate with one or more othercomponents of system 100, including systems associated with wearabledevice 110, user device 120, third-party server 140, token vaultoperator server 150, token vault 155, or requestor device 160.

Wearable device 110 may be one or more wearable computing devicesconfigured to communicate with other components of systems 100 toperform one or more processes consistent with disclosed embodiments. Forexample, wearable device 110 may include memory devices configured tostore information (e.g., one or more tokens) that may be transmitted toa point of sale (POS) device at a merchant for use in processing atransaction and/or identifying a loyalty account, transmitted to acomputer at a doctor's office for use in identifying medical records,transmitted to a government entity or any other entity requestingidentification or other non-personal information, etc.

FIG. 2 depicts an exemplary wearable device 110, consistent withdisclosed embodiments. In one embodiment, wearable device 110 mayinclude components that may execute one or more processes to securelytransfer tokens associated with digital versions of physicaldocuments/cards to interested parties without Bluetooth® or othernetwork connectivity beyond NFC radio. As shown in FIG. 2, wearabledevice 110 may include a display 210, processor 220, a memory device230, an NFC controller 240 comprising at least a secure element 250,and/or an input/output (I/O) devices 260.

Display 210 may be a device component configured to convey informationto a user, such as user 115. For example, display 210 may be a screendisplay, one or more LED light(s), etc. In some embodiments, display 210may be configured to optically display a token/token slot selected fortransmission to an interested party or other information to the user(e.g., user 115).

Processor 220 may include one or more known processing devices, frommicrocontrollers configured to process simple logic commands, such asPIC microcontrollers, MIPS microcontrollers, etc., to more powerfulmicroprocessors including the Pentium™ or Xeon™ family manufactured byIntel™, the Turion™ family manufactured by AMD™, or any of variousprocessors manufactured by Sun Microsystems. The disclosed embodimentsare not limited to any type of processor(s) configured in wearabledevice 110.

Memory device 230 may include one or more storage devices configured tostore information. For example, in some embodiments, memory device 230may store instructions that may be executed by a processor, such asprocessor 220. Memory device 230 may store data that may reflect anytype of information in any format that the system may use to performoperations consistent with the disclosed embodiments.

In some embodiments, processor 220 may execute one or more programsstored by memory device 230. For example, processor 220 may execute atransaction program configured to securely transfer those tokens tointerested parties without Bluetooth® or other network connectivitybeyond NFC radio. More specifically, processor 220 may execute atransaction program configured to provide a token stored in secureelement 250 to a merchant device (e.g., a POS device) when user 115operates wearable device 110 to complete a financial transaction,provide a token to a computer at a doctor's office for use inidentifying medical records, provide a token to a government entity orany other entity requesting identification or other personalinformation, etc.

NFC controller 240 may be a device with logic that is configured toexecute NFC-related operations. Alternatively, NFC controller 240 may besoftware that is stored in memory 230, or a separate memory device inwearable device 110 (e.g., secure element 250). NFC controller 240 mayoperate and be configured according to architectures and designs knownto one of ordinary skill in the art. In one embodiment, NFC controller240 includes a secure element 250 providing an environment in whichprocesses and data may be securely stored and/or executed. In otherembodiments, secure element 250 may be separate from NFC controller 240,such as a separate embedded device in wearable device 110, such as aSIM/UICC card that functions as the secure element, or software locatedin memory 230 that may or may not be the same memory that hosts NFCcontroller 240. For example, secure element 250 may provide delimitedmemory for applications operating according to disclosed embodiments. Incertain embodiments, secure element 250 may be configured and operate asknown secure elements for NFC devices. For example secure element 250may store applications, slot information, credentials (e.g., tokens),and/or other information associated with secure execution ofapplications.

For example, as shown in FIG. 3, secure element 250 may comprise memorystoring one or more token slots (fields 351), token values (fields 352),and token classes (fields 353). For example, secure element 250 maycomprise four slots 351B-E corresponding to four token values 352B-E.According to some embodiments, each token value 352B-E may correspond toa different set of information, such as a financial account, medicalrecords, generic personal information, insurance, loyalty programaccount, etc. of user 115. As discussed in more detail below, uponcommunicating with requestor device 160, wearable device 110 mayidentify a slot 351B-E and transmit a corresponding token 352B-E torequestor device 160 that the underlying entity (e.g., a merchant, bank,grocery store, doctor's office, etc.) may use to obtain informationassociated with the token in token vault 115. In some embodiments,wearable device 110 may be preprogrammed with an active slot to use whencommunicating with different types of requestors or request types (e.g.,merchants, medical facilities seeking medical and/or insuranceinformation, utility company requesting identification, etc.). In otherembodiments, wearable device 110 may identify a slot 351 dynamicallybased on, for example, a rotating basis, a command from another system100 component (e.g., third-party server 140, token vault operator server150, etc.).

Returning to FIG. 1, I/O devices 260 may also include one or moredigital and/or analog devices that allow user 115 to interact withwearable device 110, such as a touch-sensitive area, buttons, ormicrophones. I/O devices 260 may also include one or more accelerometersto detect the orientation and inertia of wearable device 110. I/Odevices 260 may also include other components known in the art forinteracting with user 115, such as optical, magnetic, vibration, orother sensors capable of detecting interaction with wearable device 110by user 115.

In some embodiments, wearable device 110 may be a passive device havingno internal power supply. For example, wearable device 110 may drawpower to operate from, for example, an NFC reader associated withrequestor device 160. In other embodiments, wearable device 110 may be asemi-passive device having an internal power supply for operatingcircuitry of wearable device 110 but drawing power from, for example, anNFC reader associated with requestor device 160 in order to communicate.In still other embodiments, wearable device 110 may be an active devicehaving an internal power supply capable of operating all aspects ofwearable device 110.

Wearable device 110 may be any device configured to be worn or carriedby a user, such as a user 115. For example, wearable device 110 may beincorporated into a wearable item such as a wristband, jewelry,eyeglasses, sunglasses, watch, piece of clothing (e.g., shirt, shoe,pants, jacket, etc.), etc., may include an attachment device (e.g., aclip) to allow it to be attached to a wearable item (e.g., belt), may beincorporated into an item that is normally carried by a user or held inthe user's pocket (e.g., smartphone, wallet, keys), and the like. Insome embodiments, wearable device 110 may be a component of orincorporated into a commercially available wearable computing device,such as Google Glass®, a smartwatch, etc.

Returning to FIG. 1, user device 120 may be one or more computingdevices configured to perform one or more operations consistent withdisclosed embodiments. User device 120 may be a desktop computer, alaptop, a server, a mobile device (e.g., tablet, smart phone, etc.), orany other type of computing device. For exemplary purposes, aspects ofthe disclosed embodiments are described with reference to user device120 as a mobile client device, such as a smart phone, tablet, or thelike. As mentioned herein, however, the disclosed embodiments are notlimited to such examples. For example, user device 120 may be a laptop,a desktop, or any other device.

User device 120 may include one or more processors configured to executesoftware instructions stored in memory, such as memory included in userdevice 120. User device 120 may include software that when executed by aprocessor performs known Internet-related communication, content displayprocesses, and/or disclosed token vault processes for a user of userdevice 120. For instance, user device 120 may execute browser or relatedmobile display software that generates and displays interfaces includingcontent on a display device included in, or in communication with, userdevice 120. User device 120 may be a mobile device that executes mobiledevice applications and/or mobile device communication software thatallows user device 120 to communicate with components over network 170,and generates and displays content in interfaces via a display deviceincluded in user device 120. The disclosed embodiments are not limitedto any particular configuration of user device 120. For instance, userdevice 120 may be a mobile device that stores and executes mobileapplications that provide token vault functions offered by token vaultoperator server 150 and/or financial service-related functions.

Third-party server 140 may be associated with any entity capable ofrequesting or providing information to token vault operator server 150and/or token vault 155. For example, third-party server 140 may beassociated with a financial service provider (not shown) that provides,maintains, manages, or otherwise offers financial services. For example,financial service provider may be a bank, credit card issuer, or anyother type of financial service entity that generates, provides,manages, and/or maintains financial service accounts for one or morecardholders. Financial service accounts may include, for example, creditcard accounts, loan accounts, checking accounts, savings accounts,reward or loyalty program accounts, and/or any other type of financialservice account known to those skilled in the art. Financial serviceprovider may include infrastructure and components that are configuredto generate and/or provide financial service accounts such as creditcard accounts, checking accounts, debit card accounts, loyalty or rewardprograms, lines of credit, or the like.

In another example, third-party server 140 may be associated with amerchant (not shown) that offers goods, services, and/or information,such as a retailer (e.g., Macy's®, Target®, etc.), grocery store,service provider (e.g., utility company, etc.), or any other type ofentity that offers goods, services, and/or information that consumers(e.g., end-users or other business entities) may purchase, consume, use,etc. In one example, a merchant may be associated with a merchant brickand mortar location that a user (e.g., user 115) may physically visit topurchase a product or service. The merchant may also include back-and/or front-end computing components that store data and executesoftware instructions to perform operations consistent with disclosedembodiments, such as computers that are operated by employees of themerchant (e.g., back office systems, etc.).

In still other examples, third-party server 140 may be associated withan entity that manufactures, sells, promotes, or otherwise provideswearable devices (not shown), such as wearable devices 110. In someembodiments, the issuer of wearable devices 110 may communicate withtoken vault operator server 150 in order to, for example, associate oneor more financial accounts of user 115 in token vault 155 with one ormore tokens stored in secure element 250 of wearable device 110.

In other examples, third-party server 140 may be associated with amedical practice that provides healthcare. For example, third-partyserver 140 may be associated with a doctor's office, emergency room,etc., that may request insurance information and/or the medical historyassociated with user 115. In some embodiments, as further describedbelow, third-party server 140 may further upload updated medical historyinformation, insurance transaction information, etc., following user115′s visit for medical care or the like.

In other examples, third-party server 140 may be associated with anentity requiring identity information to, for example, confirm user115′s identify, populate forms, etc. For example, the entity may be agovernment entity, employer, airport or other travel center, mortgagecompany, educational establishment, etc.

Third-party server 140 may be one or more computing devices configuredto perform one or more operations consistent with disclosed embodiments.In one aspect, third-party server 140 may be a desktop computer, aserver, or any other type of computing device. Third-party server 140may include one or more processors configured to execute softwareinstructions stored in memory. The one or more processors may beconfigured to execute software instructions that when executed by aprocessor performs known Internet-related communication processes.

For example, third-party server 140 may be configured to execute storedsoftware instructions to perform operations associated with a merchant,including one or more processes associated with processing purchasetransactions, generating transaction data, generating product data(e.g., SKU data) relating to purchase transactions, etc. The disclosedembodiments are not limited to any particular configuration ofthird-party server 140. As one example, third-party server 140 may be apoint-of-sale system like a cash register. Third-party server 140 maycomprise functionality and/or hardware operable to receive wirelesscommunications from wearable device 110 and/or user device 120. Forexample, third-party server 140 may be configured to utilizetechnologies such as NFC radio, radio-frequency identification (RFID),infrared, electric field, magnetic fields, or other technologies, inorder to initiate and/or process a purchase or other transaction.

Requestor device 160 may be any third-party server 140 may beconfigured, when communicating with token vault operator server 150and/or token vault 155, to request information associated with a tokenreceived from wearable device 110.

For example, in some embodiments, requestor device 160 may be associatedwith a merchant and include a contactless payment terminal (not shown)comprising any known NFC device designed to communicate (directly orindirectly) with other components of system 100. For example, thecontactless payment terminal (CPT) may be a POS terminal, automatedteller machine (ATM), or any other device that is configured tocommunicate with NFC mobile devices (e.g., wearable device 110 and/oruser device 120) to facilitate a financial transaction according todisclosed embodiments. For example, requestor device 160 may generateand send token authorization requests to token vault operator server 150and/or token vault 155. For example, merchant device 160 may receive atoken from wearable device 110 as part of a payment transaction forservices and/or goods rendered, and merchant device 160 may send thetoken (along with other information) to token vault operator server 150and/or token vault 155 requesting financial account informationassociated with the token with which to complete a payment transaction.

In another example, in some embodiments, requestor device 160 may beassociated with a doctor's office and comprise any known NFC devicedesigned to communicate (directly or indirectly) with other componentsof system 100. The requestor device 160 associated with the doctor'soffice may communicate with NFC mobile devices (e.g., wearable device110 and/or user device 210) to facilitate the exchange of a token(s)associated with a patient's (e.g., user 115′s) medical history orinsurance policies. Persons of skill in the art will understand thatother configurations of requestor device 160 are possible, and that theentity associated with requestor device 160 is not limited to anyparticular business industry.

Token vault operator server 150 may execute software that provides dataused for generating and displaying interfaces, including content on adisplay device included in, or connected to, user device 120 or aterminal associated with a requestor device 160 (e.g., a POS associatedwith a merchant device). In some embodiments, token vault operatorserver 150 may provide one or more web sites, online portals,application programming interfaces (APIs), etc., that are accessible byuser device 120, third-party server 140, and/or requestor device 160over network 170. The disclosed embodiments are not limited to anyparticular configuration of token vault operator server 150.

Token vault(s) 155 may include one or more memory devices that storeinformation and are accessed and/or managed through token vault operatorserver 150. By way of example, token vault(s) 155 may include Oracle™databases, Sybase™ databases, or other relational databases ornon-relational databases, such as Hadoop sequence files, HBase, orCassandra. The databases or other files may include, for example, dataand information related to generated token(s), token relationships tofinancial accounts of user(s) 155, financial records, purchasetransaction data, etc. Systems and methods of disclosed embodiments,however, are not limited to separate databases.

In one aspect, token vault operator server 150 may include tokenvault(s) 155. Alternatively, token vault(s) 155 may be located remotelyfrom the token vault operator server 150. Token vault(s) 155 may includecomputing components (e.g., database management system, database server,etc.) configured to receive and process requests for data stored inmemory devices of token vault(s) 155 and to provide data from tokenvault(s) 155.

Token vault operator server 150 may be one or more devices associatedwith an entity (not shown) that monitors and/or controls access to tokenvault 155. For example, token vault operator server 150 may be operatedby VISA®, MasterCard®, or any other entity controlling a payment railcapable of facilitating a transaction from the financial account of user115 to a merchant associated with, for example, requestor device 160. Inother embodiments, token vault operator server 150 may be one or moredevices associated with the issuer of wearable device(s) 110, afinancial service provider, etc.

FIG. 4 is a diagram of exemplary information stored in token vault(s)155, consistent with disclosed embodiments. In one aspect, tokenvault(s) 155 stores one or more tables that contain records 452-456.Each of records 452-456 contain one or more fields 401 (e.g., 451A,451B, 451C, 451D, 451E, and 451F). The fields, records, and valuestherein in FIG. 4 are exemplary and are provided to illustrateembodiments of the disclosure.

For example, each record may contain field 451A, entitled for exemplarypurposes as “Token Vault ID.” Field 451A may contain a unique identifierfor a user of the token vault (e.g., user 115). Token Vault IDs may begenerated, for example, by token vault operator server 150, and/or othercomponents of system 100, upon a user 115 configuring an account foridentity tokens to associate with wearable device 110 (e.g., identitytoken configuration process 600, discussed below). For example, user 115may operate user device 120 to configure a token vault account, andtoken vault operator server 150 may generate a token vault ID inresponse, which may be inserted into token vault(s) 155 as an entryunder field 451A.

Each record may contain field 451B, entitled for exemplary purposes as“Token Value.” Field 451B may contain a unique token value. Token valuesmay be generated, for example, by token vault operator server 150, orother components of system 100. For example, token vault operator server150 may generate one or more token values based on data sets establishedduring the configuration process (e.g., identity token configurationprocess 600), which may be inserted into token vault(s) 155 as an entryunder field 451B.

Each record may also contain field 451C, entitled for exemplary purposesas “Token Class.” Field 451C may contain an indication as to the type ofinformation associated with a generated token. For example, a tokenclass may be created for financial accounts, medical information,personal information, loyalty programs, or any other type of informationa user may wish to have collected together. Thus, in some embodiments,token vault operator server 150 may identify one or more token classesfor a given data set which may be inserted into token vault(s) 155 as anentry under field 451C.

Each record may also contain field 451D, entitled for exemplary purposesas “Class Identifier.” Field 451D may contain one or more identifiersfor a given token. For example, for a “financial” token class, the classidentifier may be a primary account number (PAN) such as a credit cardnumber, checking account/debit card number, etc. For an “insurance”token class, the class identifier may be a membership number assigned bythe insurance number. For an “identification” class, the classidentifier may be a social security number, tax ID number, driver'slicense number, etc. For a “medical” class, the class identifier may bea patient ID, social security number, or other type of unique identifierused in the medical field. Other class identifiers are possible as well.

Each record may also contain field 451E, entitled for exemplary purposesas “Token Vault User Profile.” Field 451E may contain data associatedwith account settings of user 115. For example, during configuration(e.g., identity token configuration process 600, discussed in detailbelow), token vault operator server 150 may receive user preferencesassociated with token use. For example, consistent with disclosedembodiments, the user profile may include user preferences indicatingwhat account information from among a plurality of accounts to return toa requestor under a variety of predefined circumstances. For example,multiple financial accounts may be associated with a token, and userprofile 451E may instruct token vault operator server 150 to return afirst financial account for purchases made for a first merchant, asecond financial account for transactions exceeding a predeterminedamount, etc. Moreover, user profile 451E may indicate that token vaultoperator server 150 should return the account number associated with thefinancial account that would provide a purchase discount, maximizerewards associated with a loyalty program, etc. In other embodiments,when each financial account is associated with a separate token, tokenvault operator server 150 may request the token value associated withthe preferred account according to user preferences when presented witha request for a financial account number. User profile 451E may furtherindicate that token vault operator server 150 should prompt requestordevice 160 (e.g., a POS terminal) to request a personal identificationnumber (PIN), biometrics, etc., for transactions outside or the user'stypical purchasing history (e.g., a purchase with a new merchant, apurchase with an uncharacteristically high transaction amount, etc.).User profile 451E may further include preferences regarding whatinformation may be shared with requestors. For example, user profile451E may indicate that only the user's name and secondary email accountmay be shared with marketers requesting user token information. In otherembodiments, user profile 451E may indicate one or more access levelsfor a given requestor or group of requestors. User profile 451E mayfurther require that token vault operator server 150 only respond torequests by certified requestors (e.g., requestors of token informationthat have pre-registered and/or become certified by token vault operatorserver 150). The above examples are intended to be exemplary only, and aperson of ordinary skill in the art will understand that other userpreferences are possible.

Each record may also contain field 451F, entitled for exemplary purposesas “Upload Data.” Field 451F may contain information provided by user115 via user device 120, third-party server, requestor device 160,and/or token vault operator 150. For example, consistent with disclosedembodiments, upload data 415F may include the medical history of user115. In other embodiments, upload data 451F may include user 115′spurchase history. In still other embodiments, upload data 451F mayinclude information concerning a user 115 loyalty account with merchant.

One of ordinary skill will understand that token vault 155 may containother fields and/or additional types of data. For example, token vault155 may contain information such as security codes (e.g., CVV, CVV2)associated with account numbers 451D, may contain expiration datesassociated with account numbers 451D, may contain names on payment cardsassociated with account numbers 451D, etc. Moreover, while FIG. 1depicts a single token vault 155, one of ordinary skill will understandthat a plurality of token vaults 155 may be employed operated by thesame and/or different components of system 100 may be possible.

Network 170 may be any type of network configured to providecommunications between components of system 100. For example, network170 may be any type of network (including infrastructure) that providescommunications, exchanges information, and/or facilitates the exchangeof information, such as the Internet, a Local Area Network, wirelessnetwork (e.g., a Wi-Fi/802.11 network), NFC, magnetic fields, opticalcode scanner, infrared, or other suitable connection(s) that enables thesending and receiving of information between the components of system100. In other embodiments, one or more components of system 100 maycommunicate directly through a dedicated communication link(s) (shownand not shown).

It is to be understood that the configuration and boundaries of thefunctional building blocks of system 100 have been arbitrarily definedherein for the convenience of the description. Alternative boundariescan be defined so long as the specified functions and relationshipsthereof are appropriately performed. Alternatives (includingequivalents, extensions, variations, deviations, etc., of thosedescribed herein) will be apparent to persons skilled in the relevantart(s) based on the teachings contained herein. For example, wearabledevice 110, user device 120, third-party server 140, token vaultoperator server 150, token vault 155, or requestor device 160 mayconstitute a part of components of system 100 other than thosespecifically described, or may constitute a part of multiple componentsof system 100 (i.e., a distributed system). Moreover, token vaultoperator server 155 and token vault 155 may be separate and distinctfrom other components of system 100 (as shown), or token vault operatorserver 155 and token vault 155 may be may be part another component ofsystem 100.

FIG. 5 is a diagram of another exemplary system 500, consistent withdisclosed embodiments. Variations of exemplary system 500 may be used byuser device 120, third-party server 140, token vault operator server150, token vault 155, or requestor device 160. In one embodiment, system500 may comprise one or more processors 521, one or more I/O devices522, and one or more memories 523. In some embodiments, system 500 maytake the form of a server, general purpose computer, mainframe computer,or any combination of these components. In some embodiments, system 500may take the form of a mobile computing device such as a smartphone,tablet, laptop computer, or any combination of these components.Alternatively, system 500 may be configured as a particular apparatus,embedded system, dedicated circuit, or the like based on the storage,execution, and/or implementation of the software instructions thatperform one or more operations consistent with the disclosedembodiments.

Processor 521 may include one or more known processing devices, such asmobile device microprocessors or any various other processors. Thedisclosed embodiments are not limited to any type of processor(s)configured in system 500.

Memory 523 may include one or more storage devices configured to storeinstructions used by processor 521 to perform functions related todisclosed embodiments. For example, memory 523 may be configured withone or more software instructions, such as program(s) 524 that mayperform one or more operations when executed by processor 521. Thedisclosed embodiments are not limited to separate programs or computersconfigured to perform dedicated tasks. For example, memory 523 mayinclude a single program 524 that performs the functions of the userdevice 120, or program 524 may comprise multiple programs. Memory 523may also store data 525 that is used by one or more programs. In certainembodiments, memory 523 may store software that may be executed byprocessor(s) 521 to perform one or more processes consistent withdisclosed embodiments.

I/O devices 522 may be one or more devices configured to allow data tobe received and/or transmitted by system 500. I/O devices 522 mayinclude one or more digital and/or analog devices that allow system 500to communicate with other machines and devices, such as other componentsof system 100. I/O devices 522 may also include one or more digitaland/or analog devices that allow a user to interact with system 500 suchas a touch-sensitive area, keyboard, buttons, or microphones. I/Odevices 522 may also include other components known in the art forinteracting with a user.

The components of system 500 may be implemented in hardware, software,or a combination of both hardware and software, as will be apparent tothose skilled in the art. For example, although one or more componentsof system 500 may be implemented as computer processing instructions,all or a portion of the functionality of system 500 may be implementedinstead in dedicated electronics hardware.

System 500 may also be communicatively connected to one or moredatabase(s) 527. System 500 may be communicatively connected todatabase(s) 527 through network 170. Database 527 may include one ormore memory devices that store information and are accessed and/ormanaged through system 500. By way of example, database(s) 527 mayinclude Oracle™ databases, Sybase™ databases, or other relationaldatabases or non-relational databases, such as Hadoop sequence files,HBase, or Cassandra. The databases or other files may include, forexample, data and information related to the financial records, purchasetransaction data, etc. Systems and methods of disclosed embodiments,however, are not limited to separate databases. In one aspect, system500 may include database 527. Alternatively, database 527 may be locatedremotely from the system 500. Database 527 may include computingcomponents (e.g., database management system, database server, etc.)configured to receive and process requests for data stored in memorydevices of database(s) 527 and to provide data from database 527.

FIG. 6 is a flow chart of an exemplary identity token configurationprocess 600, consistent with disclosed embodiments.

In step 602, token vault operator server 150 may receive a request toset up an identity token account. For example, user 115 may operate userdevice 120 to access a web site, online portal, API, etc., provided bytoken vault operator server 150 to configure a token vault account. Atstep 604, token vault operator server 150 may provide an interface to,for example, client device 120 for receiving account information. Tokenvault operator server 150 may further receive user identification datavia the provided interface (step 606). For example, token vault operatorserver 150 may receive personal information including name, address,social security number, phone numbers, financial account information,insurance information, medical history information, etc., and/or accesscredential information for accessing personal data from another source(such as, for example, third-party devices associated with one or moreof a medical office, financial service provider, insurance provider,etc.). At step 608, token vault operator server 150 may authenticateuser 115. For example, token vault operator server 150 may employtraditional means of confirming the identity of new users, such ascomparing entered information to trusted information retrieved fromanother source, contacting the user 115 directly, etc. Afterauthenticating user 115 and the received customer identification data,token vault operator server 150 may generate a token vault ID/accountfor user 115 (step not shown).

Token vault operator server 150 may further configure access to tokenvault 155 data sets associated with user 115. For example, if tokenvault operator server 150 received a request to create identity token(s)for financial, medical, insurance, loyalty program, and identificationtoken classes, token vault operator server 150 may create a dataset intoken vault 155 for each token class associated with user 115′s tokenvault account. Additionally or alternatively, token vault operatorserver 150 may use access credentials provided by user 115 to accessexternal data sets associated with third-party server 140. For example,token vault operator server 150 may use access credentials to afinancial account of user 115 to gain access to external financial datasets. In some embodiments, a data set may be created and/or madeaccessible by token vault 155 for each account/profile/record of user115.

At step 612, token vault operator server 150 may generate a token foreach data set generated in step 610. Token vault operator server 150 mayfurther identify one or more permissions for token use (step 614). Forexample, token vault operator server 150 may automatically generatelimits on the use of financial accounts such that credit limits are notexceeded, accounts are not overdrawn, etc. Additionally oralternatively, token vault operator server 150 may identify accesslevels based on the sensitivity or confidentiality of user 115information. For example, a merchant requesting account information tocomplete a financial transaction may only receive information associatedwith a token strictly necessary to complete the transaction. In someembodiments, however, user 115′s preferences may allow certainmanufacturers to receive a higher access level of information (e.g.,demographic, spending patterns, and/or any other information usabletarget marketing or the like). For example, user 115′s preferences mayallow a manufacturer to receive higher access level information uponproviding a coupon or other asset to user 115. In still another example,token vault operator server 150 may identify a permission requiringtoken vault operator server 150 to employ additional security measures(e.g., biometric scan, PIN entry, etc.) before providing a requestor(via, e.g., requestor device 160) with account information associatedwith a token being used to purchase items over a threshold monetaryamount.

FIG. 7 is a flow chart of an exemplary token utilization process 700,consistent with disclosed embodiments. For ease of discussion, process700 may be discussed from the perspective of token vault operator server150 and token vault 155. It should be understood, however, that othercomponents of system 100 (shown and not shown) may execute one or moresteps of process 700.

At step 702, token vault operator server 150 may receive a request toprovision one or more identity tokens to a wearable device 110. Forexample, user 115 may request (via, e.g., user device 120) that theidentity tokens generated in step 612 become provisioned to wearabledevice 110. Provisioning may become accomplished, for example, asdiscussed below with respect to FIG. 8. At step 704, token vaultoperator server 150 may associate the token(s) provisioned to wearabledevice 110 in data vault 155.

Consistent with disclosed embodiments, a requestor device 160 maytransmit an indication that a token was provided to the requestor system160 from wearable device 110 (step 706). For example, token vaultoperator server 150 may receive a request for information associatedwith the received token, along with an indication of requestoridentification (step 708). At step 710, token vault operator server 150may authenticate the requestor. For example, token vault operator server150 may determine the requestor is a certified requestor (e.g., arequestor that has pre-registered and/or become certified by token vaultoperator server 150).

At step 712, token vault operator server 150 may authenticate the token.For example, token vault operator server 150 may identify the token intoken vault 155. Token vault operator server 150 may further confirmthat the token class associated with the token is compatible with thetype of business associated with the requestor. For example, if tokenvault operator server 150 determines the token received in step 708belongs to the “medical” token class, but the requestor is a grocerystore seeking transaction information associated with the token, thentoken vault operator server 150 may decline to authenticate the tokenfor the requested use. In another example, token vault operator server150 may determine whether the received token is currently active and/orsuspected of being compromised (e.g., subjected to fraudulent use) aspart of authentication in step 712.

Token vault operator server 150 may also identify permissions, includingaccess level permissions, associated with the received token (step 714).At step 716, token vault operator server 150 may provide requestordevice 160 with the requested information (in whole or in part) based onthe permissions of the authenticated token and/or the access level ofthe requestor associated with requestor device 160. In circumstanceswhere token permissions indicated in the token vault user profiledictate, token vault operator server 150 may deny the request forinformation.

FIG. 8 is a flow chart of an exemplary reprovisioning process 800,consistent with disclosed embodiments. Reprovisioning may refer to, forexample, replacing a token on secure element 250, setting another slotof secure element as the active slot, and/or replacing a secure element250 for use in transactions. For ease of discussion, process 800 may bediscussed from the perspective of token vault operator server 150 andtoken vault 155. It should be understood, however, that other componentsof system 100 (shown and not shown) may execute one or more steps ofprocess 800.

At step 802, token vault operator server 150 may receive a request toreprovision one or more identity tokens associated with a token vaultID. Token vault operator server 150 may also dissociate the one or moreidentity tokens from the token vault ID (step 804). Thus, according tosome embodiments, future requests for information associated with thedissociated token(s) will be denied. Token vault operator server 150 maygenerate one or more new identity tokens to replace the dissociatedtoken(s) (step 806), and associate the new identity tokens with thetoken vault ID associated with the request (step 808).

At step 810, token vault operator server 150 may identify one or morewearable device(s) 110 to which the new identity tokens should becomeprovisioned. For example, token vault operator server 150 may accesstoken vault 155 to identify the wearable device(s) 110 associated withthe dissociated token. Additionally or alternatively, token vaultoperator server 150 may receive a request to provision the new identitytokens to one or more wearable device(s) 110 as described above withrespect to step 702.

At step 812, token vault operator server 150 may provision the one ormore identity tokens to the identified wearable device(s) 110. Forexample, token vault operator server 150 may determine whether secureelement 250 of wearable device 110 includes a plurality of slots, andthat at least one slot from the plurality of slots is available (e.g.,includes a token not associated with a financial account). If anotherslot is available on secure element 250, token vault operator server 150may update token vault 155 to associate the token of the available slotwith the token vault ID 451A. In such embodiments, token vault operatorserver 150 may provide an indication of the active slot for updating thesecure element 250. For example, token vault operator server 150 maycause requestor device 160 (e.g., POS terminal or other NFC radioenabled device) and/or user device 120 to display an indication of thenew active slot. Wearable device 110 and/or secure element 250 may bemanipulated to switch the active slot on the secure element 250. Forexample, wearable device 110 and/or secure element 250 may include abinary addressing switch panel, multipole toggle switches, and/or othertype of physical mechanism for manipulating the active slot of secureelement 250. In other embodiments, wearable device 110 may include avibration sensor capable of recognizing physical gestures of user 115(e.g., tapping on the wearable device 110). In still other embodiments,wearable device 110 may be configured to receive a magnetic trigger forswitching the polarity of components indicating the active slot ofwearable device 110.

Regardless of the means for altering the active slot of secure element250, wearable device 110 may include a display for conveying the currentactive slot setting of secure element 150. For example, where a secureelement comprises four slots, the second of which is the active slot,wearable device 110 may cause LED lights (e.g., one light, two lights,etc.) of a display to light up.

In other embodiments, token vault operator server 150 may provide a newtoken to wearable device 110 for storage on secure element 250 viarequestor device 160. For example, token vault operator server 150 maydetermine that wearable device 110 may receive NFC radio communicationsfrom merchant device 160 and transmit the new token to merchant device160 via, e.g., network 170, and merchant device 160 may transmit the newtoken to wearable device 110 via NFC radio for storage on secure element250.

In still other embodiments, token vault operator server 150 may issue anew secure element 250 for wearable device 110. For example, token vaultoperator server 150 may determine that wearable device 110 includes aremovable secure element 250. After making such a determination, tokenvault operator server 150 may cause a new secure element 250 storing thenew token to become provided to user 115 for installation in wearabledevice 110.

FIG. 9 is a flow chart of an exemplary token vault requestor uploadprocess 900, consistent with disclosed embodiments. For ease ofdiscussion, process 900 may be discussed from the perspective of tokenvault operator server 150 and token vault 155. It should be understood,however, that other components of system 100 may execute one or moresteps of process 900.

At step 902, token vault operator server 150 may receive a request toassociate upload data with a token in token vault 155. For example, athird-party server 140 and/or requestor device 160 associated with amedical facility may request to upload additional medical historyinformation for associated with a token in the “medical” token class.Token vault operator server 150 may identify, at step 904, the identityof the requestor associated with the third-party server 140 and/orrequestor device 160, as well as the requestor's privileges. Forexample, token vault operator server 150 may place fewer restrictions onthe ability of medical facilities and/or government entities to uploadinformation to token vault 155 as compared to a merchant, retailer, etc.

At step 906, token vault operator server 150 may access the token vaultuser profile 451E associated with the token(s) identified in step 902 toidentify user restrictions to uploads. For example, user profile 451Emay include permissions for a first merchant to upload purchase historyand/or loyalty program information, while including restrictions onother merchants preventing the upload of information. At step 908, tokenvault operator server 150 may update token vault 155 according to theaccessed requestor privileges and token vault user profile settings.

The foregoing description has been presented for purposes ofillustration. It is not exhaustive and is not limited to the preciseforms or embodiments disclosed. Modifications and adaptations of theembodiments will be apparent from consideration of the specification andpractice of the disclosed embodiments. For example, the describedimplementations include hardware and software, but systems and methodsconsistent with the present disclosure can be implemented as hardwarealone. Furthermore, although aspects of the disclosed embodiments aredescribed as being associated with data stored in memory and othertangible computer-readable storage mediums, one skilled in the art willappreciate that these aspects can also be stored in and executed frommany types of tangible computer-readable media, such as secondarystorage devices, like hard disks, floppy disks, or CD-ROM, or otherforms of RAM or ROM.

Computer programs based on the written description and methods of thisspecification are within the skill of a software developer. The variousprograms or program modules can be created using a variety ofprogramming techniques. For example, program sections or program modulescan be designed in or by means of Java, C, C++, assembly language, orany such programming languages. One or more of such software sections ormodules can be integrated into a computer system, computer-readablemedia, or existing communications software.

Moreover, while illustrative embodiments have been described herein, thescope includes any and all embodiments having equivalent elements,modifications, omissions, combinations (e.g., of aspects across variousembodiments), adaptations or alterations based on the presentdisclosure. The elements in the claims are to be interpreted broadlybased on the language employed in the claims and not limited to examplesdescribed in the present specification or during the prosecution of theapplication, which examples are to be construed as non-exclusive.Further, the steps of the disclosed methods can be modified in anymanner, including by reordering steps or inserting or deleting steps. Itis intended, therefore, that the specification and examples beconsidered as example only, with a true scope and spirit being indicatedby the following claims and their full scope of equivalents.

1. A system, comprising: a database configured to store a plurality oftokens, each token of the plurality of tokens associated with one ormore token vault IDs; at least one network communication device; astorage device comprising instructions; and at least one processorconfigured to execute the instructions to perform operations comprising:receiving a request to establish a token vault account for a user, therequest comprising at least one of customer identification information,medical history information, and an access credential to an externaldata set; authenticating an identity of the user based at least on thereceived request; generating a token vault ID associated with the user;configuring access of the system to one or more data sets generated forand associated with the token vault ID, the one or more data sets beingstored in the database or at least one external storage database;generating a plurality of tokens associated with the token vault ID,each token of the plurality of tokens associated with the token vault IDcorresponding to one of the one or more data sets; and providing thegenerated plurality of tokens associated with the token vault ID to atleast one user device.
 2. The system of claim 1, the operations furthercomprising: receiving, by a requestor device, a request for informationassociated with a requestor token, the requestor token corresponding toa token passed to the requestor device by NFC radio from the at leastone user device; authenticating the requestor device; identifying afirst token from among the generated plurality of tokens based on therequestor token; accessing one or more permissions associated with theidentified first token; and providing the requested information to therequestor device based on the accessed one or more permissions.
 3. Thesystem of claim 2, the operations further comprising authenticating therequestor token.
 4. The system of claim 1, wherein receiving the requestcomprises receiving the request from the user device.
 5. The system ofclaim 1, the operations further comprising configuring one or more tokenclasses associated with the token vault ID.
 6. The system of claim 5,wherein the one or more data sets comprise a data set for each of theone or more token classes.
 7. The system of claim 1, the operationsfurther comprising: receiving a request to reprovision a first token inthe generated plurality of tokens, the first token corresponding to afirst data set in the one or more data sets; dissociating the firsttoken from the token vault ID. generating a new token associated withthe token vault ID, the new token corresponding to the first data set;and providing the generated new token associated with the token vault IDto the least one user device.
 8. A method, comprising: receiving arequest to establish a token vault account for a user, the requestcomprising at least one of customer identification information, medicalhistory information, and an access credential to an external data set;authenticating an identity of the user based at least on the receivedrequest; generating a token vault ID associated with the user;configuring access to one or more data sets generated for and associatedwith the token vault ID, the one or more data sets being stored in adatabase; generating a plurality of tokens associated with the tokenvault ID, each token of the plurality of tokens associated with thetoken vault ID corresponding to one of the one or more data sets; andproviding the generated plurality of tokens associated with the tokenvault ID to at least one user device.
 9. The method of claim 8, furthercomprising: receiving, by a requestor device, a request for informationassociated with a requestor token, the requestor token corresponding toa token passed to the requestor device by NFC radio from the at leastone user device; authenticating the requestor device; identifying afirst token from among the generated plurality of tokens based on therequestor token; accessing one or more permissions associated with theidentified first token; and providing the requested information to therequestor device based on the accessed one or more permissions.
 10. Themethod of claim 9, further comprising authenticating the requestortoken.
 11. The method of claim 8, wherein receiving the requestcomprises receiving the request from the user device.
 12. The method ofclaim 8, further comprising configuring one or more token classesassociated with the token vault ID.
 13. The method of claim 12, whereinthe one or more data sets comprise a data set for each of the one ormore token classes.
 14. The method of claim 8, the method furthercomprising: receiving a request to reprovision a first token in thegenerated plurality of tokens, the first token corresponding to a firstdata set in the one or more data sets; dissociating the first token fromthe token vault ID. generating a new token associated with the tokenvault ID, the new token corresponding to the first data set; andproviding the generated new token associated with the token vault ID tothe least one user device.
 15. A non-transitory computer readable mediumstoring instructions that, when executed by one or more processors,cause the one or more processors to perform operations comprising:receiving a request to establish a token vault account for a user, therequest comprising at least one of customer identification information,medical history information, and an access credential to an externaldata set; authenticating an identity of the user based at least on thereceived request; generating a token vault ID associated with the user;configuring access to one or more data sets generated for and associatedwith the token vault ID, the one or more data sets being stored in adatabase; generating a plurality of tokens associated with the tokenvault ID, each token of the plurality of tokens associated with thetoken vault ID corresponding to one of the one or more data sets; andproviding the generated plurality of tokens associated with the tokenvault ID to at least one user device.
 16. The non-transitory computerreadable medium of claim 15, further comprising: receiving, by arequestor device, a request for information associated with a requestortoken, the requestor token corresponding to a token passed to therequestor device by NFC radio from the at least one user device;authenticating the requestor device; identifying a first token fromamong the generated plurality of tokens based on the requestor token;accessing one or more permissions associated with the identified firsttoken; and providing the requested information to the requestor devicebased on the accessed one or more permissions.
 17. The non-transitorycomputer readable medium of claim 16, further comprising authenticatingthe requestor token.
 18. The non-transitory computer readable medium ofclaim 15, further comprising configuring one or more token classesassociated with the token vault ID.
 19. The non-transitory computerreadable medium of claim 18, wherein the one or more data sets comprisea data set for each of the one or more token classes.
 20. Thenon-transitory computer readable medium of claim 15, the method furthercomprising: receiving a request to reprovision a first token in thegenerated plurality of tokens, the first token corresponding to a firstdata set in the one or more data sets; dissociating the first token fromthe token vault ID. generating a new token associated with the tokenvault ID, the new token corresponding to the first data set; andproviding the generated new token associated with the token vault ID tothe least one user device.